化学传感器
化學傳感器
화학전감기
CHEMICAL SENSORS
2013年
4期
55-61
,共7页
许中石%蔡婷婷%康琪%申大忠
許中石%蔡婷婷%康琪%申大忠
허중석%채정정%강기%신대충
金属有机框架%挥发性有机物%石英晶体微天平%吸附动力学
金屬有機框架%揮髮性有機物%石英晶體微天平%吸附動力學
금속유궤광가%휘발성유궤물%석영정체미천평%흡부동역학
metal-organic framework%volatile organic compound%quartz crystal microbalance%adsorption kinetics
采用石英晶体微天平(QCM)技术动态监测三氯甲烷在[Cu(C24H22N4O3)]·CH2Cl2金属有机框架膜(Cu-MOFs)上的吸附动力学,吸附与解吸过程中膜质量的变化由QCM的频率变化实时传感测量,结果表明,吸附过程符合假二级动力学模型,其中在三氯甲烷蒸气压条件下的吸附速率常数为在1.01×105 Pa N2存在下速率常数的1.4~2.1倍,半数以上的吸附量相对于气相浓度稀释呈现可逆吸附特征。吸附等温线符合Langmuir等温式,在蒸气压与1.01×105 Pa N2存在条件下(25℃),三氯甲烷在厚度为0.337μm Cu-MOFs上吸附的平衡常数分别为6.47与3.93 L/g,最大吸附量分别为27.2与24.7μg/cm2。
採用石英晶體微天平(QCM)技術動態鑑測三氯甲烷在[Cu(C24H22N4O3)]·CH2Cl2金屬有機框架膜(Cu-MOFs)上的吸附動力學,吸附與解吸過程中膜質量的變化由QCM的頻率變化實時傳感測量,結果錶明,吸附過程符閤假二級動力學模型,其中在三氯甲烷蒸氣壓條件下的吸附速率常數為在1.01×105 Pa N2存在下速率常數的1.4~2.1倍,半數以上的吸附量相對于氣相濃度稀釋呈現可逆吸附特徵。吸附等溫線符閤Langmuir等溫式,在蒸氣壓與1.01×105 Pa N2存在條件下(25℃),三氯甲烷在厚度為0.337μm Cu-MOFs上吸附的平衡常數分彆為6.47與3.93 L/g,最大吸附量分彆為27.2與24.7μg/cm2。
채용석영정체미천평(QCM)기술동태감측삼록갑완재[Cu(C24H22N4O3)]·CH2Cl2금속유궤광가막(Cu-MOFs)상적흡부동역학,흡부여해흡과정중막질량적변화유QCM적빈솔변화실시전감측량,결과표명,흡부과정부합가이급동역학모형,기중재삼록갑완증기압조건하적흡부속솔상수위재1.01×105 Pa N2존재하속솔상수적1.4~2.1배,반수이상적흡부량상대우기상농도희석정현가역흡부특정。흡부등온선부합Langmuir등온식,재증기압여1.01×105 Pa N2존재조건하(25℃),삼록갑완재후도위0.337μm Cu-MOFs상흡부적평형상수분별위6.47여3.93 L/g,최대흡부량분별위27.2여24.7μg/cm2。
The adsorption kinetics of chloroform over a metal-organic framework film of [Cu(C24H22N4O3)]·CH2Cl2 (Cu-MOFs) was investigated by a quartz crystal microbalance(QCM) technique. The change in the mass of Cu-MOFs film during the adsorption and desorption processes was monitored in real time by the frequency shift of QCM. The adsorption process follows closely the pseudo-second-order kinetic model. The adsorption rates at vapor pressure of chloroform are 1.4~2.1 times of that in the presence of N2 at atmospheric pressure. More than half of chloroform adsorbed over Cu-MOFs film is reversible with respect to the dilution of chloroform concentration in gas phase. The adsorption isotherms are fitted well by the Langmuir model. For chloroform adsorbed at its vapor pressure and in N 2 of 1.01 × 105 Pa over Cu-MOFs film with thickness of 0.337μm(25℃), the adsorption equilibrium constants are 6.47 and 3.93 L/g, the maximum adsorption capacities are 27.2 and 24.7μg/cm2.